Iterative training to explore glassy landscapes
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Updated
Aug 19, 2023 - Python
Iterative training to explore glassy landscapes
Neural functional theory for inhomogeneous fluids: Fundamentals and applications
Code developed for a research project at Umeå universitet focusing on sheared packings of ellipsoids, supervised by Peter Olsson.
Python GUI for the quick processing, analysis and plotting of differential dynamic microscopy data
A deep learning approach for particle detection from super-resolution microscopy.
Code to run simulations and produce figures for Bradley et al. 2021, "Droplet trapping in bendotaxis caused by contact angle hysteresis"
All Python package to compute small angle X-ray scattering (SAXS) profiles in one-bead-per-residue approximation with numpy
Create a consistent, documented pipline and folder structure for self-consistent MD charge optimization.
Neural functional theory for inhomogeneous fluids - Tutorial
Bending Stiffness of Actin Filaments
Notes of a research project at Umeå universitet focusing on sheared packings of ellipsoids, supervised by Peter Olsson.
Data from recent publications
Random And Maximal PACKing PACKage
2D simulation of confluent cell collectives based on a coarse-grained bead-spring model
Python code that can be used to analyze molecular dynamics simulations of proteins/polymers solvated in water. The first and second hydration shells are calculated, the molecular volume, the partial molar volume, and the number of waters associated with each side chain are calculated. This is specifically for PNIPAM but can be modified fairly ea…
Wiki of a research project at the University of British Columbia focusing on a simple model of active particles, supervised by Jörg Rottler.
Code developed for a research project at the University of British Columbia focusing on a simple model of active particles, supervised by Jörg Rottler.
The Active Matter Evaluation Package (AMEP) - a Python library for the analysis of particle-based and continuum simulation data of soft and active matter systems
Python port of Generalized Rotne Prager Yamakawa hydrodynamic tensors.
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